<p>Retinal degenerative diseases range from rare inherited forms to common multifactorial disorders such as age-related macular degeneration, which is the leading cause of blindness in developed countries. Recent evidence identifies impaired autophagy as a key pathogenetic mechanism. In the disease process alterations of the outer retina start from the retinal pigment epithelium (RPE), to progress downstream in the inner retina leading to widespread whole retinal degeneration. Recent studies indicate that among autophagy-related proteins Beclin1 plays a relevant effect in sustaining retinal integrity, since it is induced by light exposure and it is placed at the intersection between mitophagy, lipophagy, and glycophagy, which are involved during retinal degeneration. The present study was carried out by profiting of <i>BECN1</i> heterozygous aged mice (BECN+/−), where RT-PCR and western blotting analysis confirmed the loss of both the primary transcript (<i>BECN1</i>) and protein (Beclin1) in the whole retina. Multiple converging techniques indicate a marked degeneration of RPE and photoreceptor layer, where a dismantling of proteins forming tight junction was documented. Inner retinal degeneration was extended within outer and inner nuclear layer. In the inner retina the expression of the detrimental protein alpha synuclein was increased concomitantly with a defect of autophagy markers. The study indicates a seminal role of Beclin1 in maintaining retinal integrity and it defines the vulnerability of various retinal layers in the spreading of Beclin1-dependent retinal degeneration. The potential of increasing the expression of Beclin1 through photobiomodulation is discussed, since it supports retinal integrity when amber/red light-induced stimulation occurs.</p>

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Spontaneous whole retinal degeneration in aged Beclin1 heterozygous mice

  • Francesca Biagioni,
  • Maurizio Forte,
  • Flavio di Nonno,
  • Carla Letizia Busceti,
  • Roberto Pinelli,
  • Violet Vakunseh Bumah,
  • Michela Ferrucci,
  • Gloria Lazzeri,
  • Sebastiano Sciarretta,
  • Giacomo Frati,
  • Francesco Fornai

摘要

Retinal degenerative diseases range from rare inherited forms to common multifactorial disorders such as age-related macular degeneration, which is the leading cause of blindness in developed countries. Recent evidence identifies impaired autophagy as a key pathogenetic mechanism. In the disease process alterations of the outer retina start from the retinal pigment epithelium (RPE), to progress downstream in the inner retina leading to widespread whole retinal degeneration. Recent studies indicate that among autophagy-related proteins Beclin1 plays a relevant effect in sustaining retinal integrity, since it is induced by light exposure and it is placed at the intersection between mitophagy, lipophagy, and glycophagy, which are involved during retinal degeneration. The present study was carried out by profiting of BECN1 heterozygous aged mice (BECN+/−), where RT-PCR and western blotting analysis confirmed the loss of both the primary transcript (BECN1) and protein (Beclin1) in the whole retina. Multiple converging techniques indicate a marked degeneration of RPE and photoreceptor layer, where a dismantling of proteins forming tight junction was documented. Inner retinal degeneration was extended within outer and inner nuclear layer. In the inner retina the expression of the detrimental protein alpha synuclein was increased concomitantly with a defect of autophagy markers. The study indicates a seminal role of Beclin1 in maintaining retinal integrity and it defines the vulnerability of various retinal layers in the spreading of Beclin1-dependent retinal degeneration. The potential of increasing the expression of Beclin1 through photobiomodulation is discussed, since it supports retinal integrity when amber/red light-induced stimulation occurs.